TY - JOUR
T1 - Comparison of model results of collection efficiency of aerosol particles by individual water droplets and ice crystals in a subsaturated atmosphere
AU - Wang, P. K.
AU - Lin, H.
N1 - Funding Information:
This research is partially supported by EPA Grant R-817108-01-0, NSF Grant ATM-9002299 and 9314465, National Research Council (Taiwan, ROC) Grant, and University of Wisconsin-Madison Graduate Research Funds 135-3572 and 135-3 196. The author also gratefully acknowledge the receipt of the Humboldt Senior Research Award sponsored by the Alexander von Humboldt Foundation of the Federal Republic Germany which contributed to this research.
PY - 1995/9
Y1 - 1995/9
N2 - The aerosol collection efficiencies of water droplets and ice crystals are compared based on the concept of equivalent geometrical kernel K* which is the geometrical sweep-out volume per unit time by the collector. It is thought that the comparison based on this quantity reveals the real difference of the aerosol collecting abilities of different collectors and sheds lights on the precipitation scavenging mechanisms. The collection efficiencies are taken from theoretical model results computed by us previously at relative humidities of 95% for water droplets, columnar and hexagonal plate ice crystals. It is shown that the efficiencies are rather insensitive to collector shape for aerosol particles smaller than 0.01 μm. The shape factor becomes more important for larger aerosol particles, especially in the Greenfield-Gap size range.
AB - The aerosol collection efficiencies of water droplets and ice crystals are compared based on the concept of equivalent geometrical kernel K* which is the geometrical sweep-out volume per unit time by the collector. It is thought that the comparison based on this quantity reveals the real difference of the aerosol collecting abilities of different collectors and sheds lights on the precipitation scavenging mechanisms. The collection efficiencies are taken from theoretical model results computed by us previously at relative humidities of 95% for water droplets, columnar and hexagonal plate ice crystals. It is shown that the efficiencies are rather insensitive to collector shape for aerosol particles smaller than 0.01 μm. The shape factor becomes more important for larger aerosol particles, especially in the Greenfield-Gap size range.
UR - https://www.scopus.com/pages/publications/0029414246
UR - https://www.scopus.com/pages/publications/0029414246#tab=citedBy
U2 - 10.1016/0169-8095(95)00007-E
DO - 10.1016/0169-8095(95)00007-E
M3 - Article
AN - SCOPUS:0029414246
SN - 0169-8095
VL - 38
SP - 381
EP - 390
JO - Atmospheric Research
JF - Atmospheric Research
IS - 1-4
ER -